Henry's law states that the solubility of a gas is directly proportional to the partial pressure of that gas over the liquid. The higher the partial pressure, the more gas will be dissolved-- that's why your blood boils in a vacuum; there's not enough pressure to keep the gas in it dissolved.
The solubility of a gas in a liquid occurs faster if the liquid is of warm temperature. There should also be partial pressure of the gas over the liquid.
do particles move faster as a liquid or a gas
Saturated solution is the ideal type of solution. The other is unsaturated, which is less saturated than what the solvent (water, liquid etc.), and it can dilute. The last one is supersaturated which mean the solution contains more solute (solid materials).
As the temperature of a liquid decreases the amount of gas that can be dissolved increases.
When you wish to dissolve a solid in a liquid faster, you increase the temperature. This makes the solid particles move faster and farther, and thus dissolve in the liquid faster. However, the problem with dissolving a gas is the opposite: gas particles already are moving fast and far, to the point where it is difficult to keep them stay in the liquid. The opposite is thus done, lower the temperature. A good example is a can of soda. Cold soda is almost always fizzier than warm soda because the carbon dioxide is dissolved more in the liquid. cool the liquid and increase the pressure
It can be a solid or a gas.
Henry's law states that the solubility of a gas is directly proportional to the partial pressure of that gas over the liquid. The higher the partial pressure, the more gas will be dissolved-- that's why your blood boils in a vacuum; there's not enough pressure to keep the gas in it dissolved.
More gas dissolves into the liquid.
Henry's law states that the solubility of a gas is directly proportional to the partial pressure of that gas over the liquid. The higher the partial pressure, the more gas will be dissolved-- that's why your blood boils in a vacuum; there's not enough pressure to keep the gas in it dissolved.
Lookin at coldrinks i think low temp. Favours it.
Henry's law states that the solubility of a gas is directly proportional to the partial pressure of that gas over the liquid. The higher the partial pressure, the more gas will be dissolved-- that's why your blood boils in a vacuum; there's not enough pressure to keep the gas in it dissolved.
This is a gas dissolved in a liquid.
This is a gas dissolved in a liquid.
This is a gas dissolved in a liquid.
A gas dissolved in liquid. Which means it is no longer a gas. :)
There are a number of ways in which a gas could dissolve in a liquid. It could bind with the liquid molecules.
it is a dissolved gas
do particles move faster as a liquid or a gas